Nitrous Oxide Emission and Denitrifier Abundance in Two Agricultural Soils Amended with Crop Residues and Urea in the North China Plain

The application of crop residues combined with Nitrogen (N) fertilizer has been broadly adopted in China. Crop residue amendments can provide readily available C and N, as well as other nutrients to agricultural soils, but also intensify the N fixation, further affecting N2O emissions. N2O pulses ar...

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Bibliographic Details
Published in:PloS one 2016-05, Vol.11 (5), p.e0154773-e0154773
Main Authors: Gao, Jianmin, Xie, Yingxin, Jin, Haiyang, Liu, Yuan, Bai, Xueying, Ma, Dongyun, Zhu, Yunji, Wang, Chenyang, Guo, Tiancai
Format: Article
Language:English
Subjects:
Abundance
Agricultural land
Agricultural management
Agricultural practices
Agricultural production
Agriculture
Agrochemicals
Alluvial soils
Biology and Life Sciences
Cereal crops
China
Collaboration
Corn
Crop residues
Crop rotation
Crop science
Crops
Crops, Agricultural
Ecology and Environmental Sciences
Emission
Emissions
Engineering research
Fertilization
Fertilizer application
Fertilizers
Flooding
Genes
Genetic aspects
Incubation
Irrigation
Laboratories
Moisture content
Nitrates
Nitrogen
Nitrogen fertilizers
Nitrous oxide
Nitrous Oxide - chemistry
Nutrients
pH effects
Physiological aspects
Rainfall
Research and Analysis Methods
Residues
rRNA 16S
Soil
Soil amendment
Soil investigations
Soil lime
Soil moisture
Soil moisture content
Soil nutrients
Soil pH
Soils
Urea
Urea - chemistry
Water content
Wheat
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Summary:The application of crop residues combined with Nitrogen (N) fertilizer has been broadly adopted in China. Crop residue amendments can provide readily available C and N, as well as other nutrients to agricultural soils, but also intensify the N fixation, further affecting N2O emissions. N2O pulses are obviously driven by rainfall, irrigation and fertilization. Fertilization before rainfall or followed by flooding irrigation is a general management practice for a wheat-maize rotation in the North China Plain. Yet, little is known on the impacts of crop residues combined with N fertilizer application on N2O emission under high soil moisture content. A laboratory incubation experiment was conducted to investigate the effects of two crop residue amendments (maize and wheat), individually or in combination with N fertilizer, on N2O emissions and denitrifier abundance in two main agricultural soils (one is an alluvial soil, pH 8.55, belongs to Ochri-Aquic Cambosols, OAC, the other is a lime concretion black soil, pH 6.61, belongs to Hapli-Aquic Vertosols, HAV) under 80% WFPS (the water filled pore space) in the North China Plain. Each type soil contains seven treatments: a control with no N fertilizer application (CK, N0), 200 kg N ha(-1) (N200), 250 kg N ha(-1) (N250), maize residue plus N200 (MN200), maize residue plus N250 (MN250), wheat residue plus N200 (WN200) and wheat residue plus N250 (WN250). Results showed that, in the HAV soil, MN250 and WN250 increased the cumulative N2O emissions by 60% and 30% compared with N250 treatment, respectively, but MN200 and WN200 decreased the cumulative N2O emissions by 20% and 50% compared with N200. In the OAC soil, compared with N200 or N250, WN200 and WN250 increased the cumulative N2O emission by 40%-50%, but MN200 and MN250 decreased the cumulative N2O emission by 10%-20%. Compared with CK, addition of crop residue or N fertilizer resulted in significant increases in N2O emissions in both soils. The cumulative N2O emissions from the treatments of 250 kg N ha(-1) were 1.1-3.3 times higher than those of treatments with 200 kg N ha(-1) in both soils with adding equal amounts of the same type of crop residue. Abundance of the 16S rRNA gene did not significantly change in all treatments in two soils, but the nosZ and nirS genes were more abundant in soils amended with crop residues compared with CK or N-only treatments. N2O emission, however, were not related to the abundance of denitrifier containing nirS or nosZ. The
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0154773